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Literature DB >> 24637640

Engineering self-sufficient aldehyde deformylating oxygenases fused to alternative electron transfer systems for efficient conversion of aldehydes into alkanes.

Qing Wang¹, Xuenian Huang, Jingjing Zhang, Xuefeng Lu, Shengying Li, Jian-Jun Li.

Abstract

Self-sufficient aldehyde deformylating oxygenases (ADOs) from Synechococcus elongatus PCC7942 fused to alternative electron transfer systems were successfully designed, constructed, characterized and used for efficient conversion of aldehydes into alkanes for the first time.

Entities: Chemical Species

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Year: 2014 PMID： 24637640 DOI： 10.1039/c4cc00591k

Source DB: PubMed Journal: Chem Commun (Camb) ISSN： 1359-7345 Impact factor: 6.222

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Cited

7 in total

1. A consensus-guided approach yields a heat-stable alkane-producing enzyme and identifies residues promoting thermostability.

Authors: Tabinda Shakeel; Mayank Gupta; Zia Fatma; Rakesh Kumar; Raubins Kumar; Rahul Singh; Medha Sharma; Dhananjay Jade; Dinesh Gupta; Tasneem Fatma; Syed Shams Yazdani
Journal: J Biol Chem Date: 2018-04-09 Impact factor: 5.157

2. Structure-oriented substrate specificity engineering of aldehyde-deformylating oxygenase towards aldehydes carbon chain length.

Authors: Luyao Bao; Jian-Jun Li; Chenjun Jia; Mei Li; Xuefeng Lu
Journal: Biotechnol Biofuels Date: 2016-08-31 Impact factor: 6.040

3. Identification of residues important for the activity of aldehyde-deformylating oxygenase through investigation into the structure-activity relationship.

Authors: Qing Wang; Luyao Bao; Chenjun Jia; Mei Li; Jian-Jun Li; Xuefeng Lu
Journal: BMC Biotechnol Date: 2017-03-16 Impact factor: 2.563

4. Comparison of orthologous cyanobacterial aldehyde deformylating oxygenases in the production of volatile C3-C7 alkanes in engineered E. coli.

Authors: Pekka Patrikainen; Veronica Carbonell; Kati Thiel; Eva-Mari Aro; Pauli Kallio
Journal: Metab Eng Commun Date: 2017-05-08

Engineering self-sufficient aldehyde deformylating oxygenases fused to alternative electron transfer systems for efficient conversion of aldehydes into alkanes.

1. A consensus-guided approach yields a heat-stable alkane-producing enzyme and identifies residues promoting thermostability.

2. Structure-oriented substrate specificity engineering of aldehyde-deformylating oxygenase towards aldehydes carbon chain length.

3. Identification of residues important for the activity of aldehyde-deformylating oxygenase through investigation into the structure-activity relationship.

4. Comparison of orthologous cyanobacterial aldehyde deformylating oxygenases in the production of volatile C3-C7 alkanes in engineered E. coli.

Review 5. Engineering nature for gaseous hydrocarbon production.

6. Exploring optimal Taxol® CYP725A4 activity in Saccharomyces cerevisiae.

7. Structural insights into the catalytic mechanism of aldehyde-deformylating oxygenases.